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| Installed with the ET-PKD100H |
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| When the optional ceiling mounted bracket (ET-PKD100H) and lens are used, add the l' value shown below to the 290mm (11-13/32") measurement from the ceiling mounted bracket pole to the surface of the lens. |
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| NOTE: Illustrations show the projector installed using optional ceiling bracket. This illustration is not drawn to scale. |
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| When the optional ceiling mounted bracket (ET-PKD100S)
and lens are used, add the l' value shown below to the 285mm (11-7/32")
measurement from the ceiling-mounted bracket pole to the surface of the
lens. |
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| NOTE: Illustrations show the projector installed using optional ceiling bracket. This illustration is not drawn to scale. |
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| NOTE: | |
The values of L shown above vary due to characteristics
of the zoom lens. Images may slightly distort due to characteristics
of the zoom lens when the zoom lens is set to the minimum throw distance. |
| • • • • |
|
The figures in the above table may vary by approximately
5% depending on the projection lens that is used. When vertical keystone correction is used, the image is corrected in the direction that reduces its projected size. At the shortest projection distance, the zoom lens characteristics may cause slight image distortion. For the ET-D75LE5, the height from the edge of the screen to the center of the lens (H) is 1/2 of the screen height. Also, because the ETD75LE5 is a fixed short-throw lens, the lens shift function cannot be used with it. |
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| Installed with the ET-PKD100H |
|
 |
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| When the optional ceiling mounted
bracket (ET-PKD100H) and lens are used, add the L1 value shown below to
the 290mm measurement from the ceiling mounted bracket
pole to the surface of the lens. |
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| NOTE: Illustrations show the projector installed using optional ceiling bracket. This illustration is not drawn to scale. |
| Installed with the ET-PKD100S |
|
 |
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| When the optional ceiling mounted
bracket (ET-PKD100S) and lens are used, add the L1 value shown below to
the 290mm measurement from the ceiling mounted bracket
pole to the surface of the lens. |
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|
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| NOTE: Illustrations show the projector installed using optional ceiling bracket. This illustration is not drawn to scale. |
 |
| NOTE: | |
The values of L shown above vary due to characteristics
of the zoom lens. Images may slightly distort due to characteristics
of the zoom lens when the zoom lens is set to the minimum throw distance. |
| • • • • |
|
The figures in the above table may
vary by approximately 5% depending on the projection lens that is used. When vertical keystone correction is used, the image is corrected in the direction that reduces its projected size. At the shortest projection distance, the zoom lens characteristics may cause slight image distortion. For the ET-D75LE5, the height from the edge of the screen to the center of the lens (H) is 1/2 of the screen height. Also, because the ETD75LE5 is a fixed short-throw lens, the lens shift function cannot be used with it. |
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| Standard setting-up positions |
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| NOTE: Illustrations show the projector installed using optional ceiling bracket. This illustration is not drawn to scale. |
 |
| NOTE: | |
The throw ratio is an approximate value calculated by dividing the screen width by the projection distance. (Throw ratio) = (screen width) / (projection distance) |
| • • • |
|
The figures in the above table may vary by approximately ±5% depending on the projection lens that is used. When vertical keystone correction is used, the image is corrected in the direction that reduces its projected size. At the shortest projection distance, the zoom lens characteristics may cause slight image distortion. |
